The California generation fleet manages the existing variability and uncertainty in the demand for electric power (load). When wind power is added, the dispatchable generators manage the variability and uncertainty of the net load (load minus wind power). The variability and uncertainty of the load and the net load are compared when 8790 MW of wind power are added to the California power system, a level expected when California achieves its 33% renewable portfolio standard, using a data set of 26,296 h of synchronous historic load and modeled historic wind power output. Variability was calculated as the rate of change in power generated by wind farms or consumed by the load from 1 h to the next (MW/h). Uncertainty was calculated as the 1 h ...
<p><b>Table 1.</b> Summary of wind and load for ERCOT and MISO during the time perio...
The paper demonstrates the characteristics of wind power variability and net load variability in mul...
<p><strong>Figure 9.</strong> Dispatchable generation capacity required to cover 95%–99% of net load...
The California generation fleet manages the existing variability and uncertainty in the demand for e...
The power system balancing process, which includes the scheduling, real time dispatch (load followin...
One of the critical challenges of wind power integration is the variable and uncertain nature of the...
<p>Electricity generated from wind power is both variable and uncertain. Wind forecasts provide valu...
One of the critical challenges of wind power integration is the variable and uncertain nature of the...
<p><strong>Figure 11.</strong> Standard deviation of modeled wind forecast errors as a function of i...
The introduction of large amounts of variable and uncertain power sources, such as wind power, into ...
<p><strong>Figure 6.</strong> Wind power forecast error distributions for ERCOT (top) and MISO (bott...
<p><strong>Figure 10.</strong> Amount of dispatchable generation capacity required to cover 95% of n...
<p><strong>Figure 14.</strong> Additional day-ahead reserve capacity for maximum wind forecast uncer...
<p><strong>Figure 13.</strong> Additional day-ahead reserve capacity for maximum wind forecast uncer...
<p><strong>Figure 8.</strong> Dispatchable generation capacity required to cover 95% of day-ahead ne...
<p><b>Table 1.</b> Summary of wind and load for ERCOT and MISO during the time perio...
The paper demonstrates the characteristics of wind power variability and net load variability in mul...
<p><strong>Figure 9.</strong> Dispatchable generation capacity required to cover 95%–99% of net load...
The California generation fleet manages the existing variability and uncertainty in the demand for e...
The power system balancing process, which includes the scheduling, real time dispatch (load followin...
One of the critical challenges of wind power integration is the variable and uncertain nature of the...
<p>Electricity generated from wind power is both variable and uncertain. Wind forecasts provide valu...
One of the critical challenges of wind power integration is the variable and uncertain nature of the...
<p><strong>Figure 11.</strong> Standard deviation of modeled wind forecast errors as a function of i...
The introduction of large amounts of variable and uncertain power sources, such as wind power, into ...
<p><strong>Figure 6.</strong> Wind power forecast error distributions for ERCOT (top) and MISO (bott...
<p><strong>Figure 10.</strong> Amount of dispatchable generation capacity required to cover 95% of n...
<p><strong>Figure 14.</strong> Additional day-ahead reserve capacity for maximum wind forecast uncer...
<p><strong>Figure 13.</strong> Additional day-ahead reserve capacity for maximum wind forecast uncer...
<p><strong>Figure 8.</strong> Dispatchable generation capacity required to cover 95% of day-ahead ne...
<p><b>Table 1.</b> Summary of wind and load for ERCOT and MISO during the time perio...
The paper demonstrates the characteristics of wind power variability and net load variability in mul...
<p><strong>Figure 9.</strong> Dispatchable generation capacity required to cover 95%–99% of net load...